Design with Algae Bloom
IF 4.6
Q2 MATERIALS SCIENCE, BIOMATERIALS
Xiwei Shen, Jiawen Chen, Qiuyi Yang, Mengting Ge
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引用次数: 0
Abstract
doi:10.3368/er.41.2–3.78 Ecological Restoration Vol. 41, Nos. 2–3, 2023 ISSN 1522-4740 E-ISSN 1543-4079 ©2023 by the Board of Regents of the University of Wisconsin System. Harper, J.L., J.T. Williams and G.R. Sagar. 1965. The behaviour of seeds in soil: I. The heterogeneity of soil surfaces and its role in determining the establishment of plants from seed. Journal of Ecology 53:273–286. Jírová, A., A. Klaudisová and K. Prach. 2012. Spontaneous restoration of target vegetation in old-fields in a central European landscape: a repeated analysis after three decades. Applied Vegetation Science 15:245–252. Mills, A.J. and R.M. Cowling. 2006. Rate of carbon sequestration at two thicket restoration sites in the Eastern Cape, South Africa. Restoration Ecology 14:38–49. Mucina, L. and M.C. Rutherford. 2006. The vegetation of South Africa, Lesotho and Swaziland. Strelitzia 19, South African National Biodiversity Institute, Pretoria. Ruwanza, S. 2017. Furrows as centers of restoration in old fields of Renosterveld, South Africa. Ecological Restoration 35:289–29. Ruwanza, S. 2019. Nurse plants have the potential to accelerate vegetation recovery in Lapalala Wilderness old fields, South Africa. African Journal of Ecology 57:82–91. Ruwanza, S. 2022. Microtopographic variations in soil physicochemical properties in oldfield targeted for ecological restoration. African Journal of Ecology 60:750–758. Shiponeni, N.N. and S.J. Milton. 2006. Seed dispersal in the dung of large herbivores: implications for restoration of Renosterveld shrubland old fields. Biodiversity and Conservation 15: 3161–3175. Sojnekova, M. and M. Chytrý. 2015. From arable land to species-rich semi-natural grasslands, Succession in abandoned fields in a dry region of central Europe. Ecological Engineering 77:373–381. Zedler, J.B. and P.H. Zedler. 1969. Association of species and their relationship to microtopography within old fields. Ecology 50: 432–442.
海藻盛开的设计
生态恢复Vol. 41, no .2 - 3,2023 ISSN 1522-4740 E-ISSN 1543-4079©2023由威斯康星大学系统的校务委员会。哈珀,j.l., J.T.威廉姆斯和g.r.s agar, 1965。种子在土壤中的行为:1 .土壤表面的异质性及其在决定种子形成植物中的作用。生态学杂志53:273-286。Jírová, A., A. klaudisov和K. Prach。2012。中欧景观中老田目标植被的自发恢复:30年后的重复分析。应用植被科学15:245-252。米尔斯,A.J.和R.M.考林,2006。南非东开普省两个灌木林恢复点的碳固存率。恢复生态学14:38-49。Mucina, L.和M.C. Rutherford. 2006。南非、莱索托和斯威士兰的植被。Strelitzia 19,南非国家生物多样性研究所,比勒陀利亚。鲁万扎,S. 2017。在南非雷诺斯特费尔德的旧农田中,作为修复中心的犁沟。生态恢复35:289-29。鲁万扎,2019。护理植物有可能加速南非拉帕拉拉荒野旧田的植被恢复。非洲生态学杂志57:82-91。鲁万扎,S. 2022。生态修复旧田土壤理化性质的微地形变化非洲生态学杂志60:750-758。Shiponeni, N.N.和S.J. Milton, 2006。大型食草动物粪便中的种子传播:对雷诺斯特菲尔德灌丛旧田恢复的启示。生物多样性与生态保护学报(自然科学版)15(3):361 - 3175。Sojnekova, M.和M. Chytrý。2015. 从可耕地到物种丰富的半自然草地,中欧干旱地区废弃田地的演替。生态工程77:373-381。泽德勒,J.B.和P.H.泽德勒,1969。老田中物种的关联及其与微地形的关系。生态学50:432-442。
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